Carcass Weight Control

ABSTRACT

Provided, is a fully integrated system to monitor and control carcass weight to minimize weight loss in carcasses during the chilling cycle. This will be accomplished by incorporating a load cell and a radio frequency identification device on the trolley operating on the elevated track system extending through the packing plant, including the carcass chilling rooms. This method and apparatus will provide the needed location and weight data to control a water spray system to maintain a constant carcass weight during the entire chilling cycle.

CROSS REFERENCE TO RELATED APPLICATIONS

Not applicable.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT

Not applicable.

REFERENCE TO MICROFICHE APPENDIX

Not applicable.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to the real time monitoring and weight adjusting of the food and meat producing animals. This system provides data needed to control the facility water spray and refrigeration system to maintain carcass weight and reduce carcass shrinkage.

2. Background Art

As part of the processing of meat, carcasses are hung on trolleys 100, such as that shown in FIG. 1, that are guided along an elevated track through the packing plant. The elevated track passes through cooling facilities, where the carcasses are chilled and moistened.

A challenge in the chilling process is that of maintaining carcass weight. The system in use today makes use of a single scale located on the facility's track system. Selected carcasses are diverted to the single scale where each carcass is weighed and tagged before the chilling process starts. These data are kept for later reference. After a selected carcass is identified and weighed, it is sent back to the main track system, then to the chilling room or carcass cooler. In the chilling room, all the carcasses are refrigerated and sprayed with chilled water to drop the internal temperature of the carcasses to the desired processing temperature. The time required for chilling can vary from hours to days, depending upon the product. The required chilling time notwithstanding, when the identified (pre-weighed and tagged) carcasses leave the carcass cooler, they will be diverted to the scale and reweighed. The difference in the entering weight and leaving weights of the carcasses will be used to adjust the refrigeration and spray equipment. This method for controlling weight loss is effective, and loss due to shrinkage in most facilities averages 0.8% to 1.5% weight reduction on all carcasses.

However, even the apparently low loss of 0.8% to 1.5% for each carcass results overall in thousands of pounds and millions of dollars due to the total mass of meat processed. Many variables during the chilling process affect the rate of weight loss. Because of the complexity of the problem and the regulations prohibiting suppliers from having weight gain (carcasses weighing more after the chilling process), the industry has accepted the current loss averages. However, the losses in weight and revenue remain.

There is, therefore, a need for a method and apparatus for providing real-time monitoring and constant weight adjusting to minimize carcass weight loss while avoiding carcass weight gain.

BRIEF SUMMARY OF THE INVENTION

An object of the present invention is to provide a method and apparatus for reducing carcass weight loss during carcass cooling. Another object of this invention is to avoid carcass weight gain. Still another object is to archive data that will help design future effective chilling and moistening processes.

By use of real-time monitoring and continuous adjustment of the spraying process, the variables affecting shrinkage can be handled, and the product weight loss reduced significantly.

In the preferred embodiment of the present invention, selected trolleys located on a track system in a processing facility, are designed to include a wireless (remote readable) load cell to provide a continuous, real-time weight measurement of the carcass hanging thereon during the entire chilling process. The same selected trolleys are also fitted with Radio Frequency Identification (RFID) to provide the location of the carcasses hanging on the selected trolleys while in the carcass cooler. For the purposes of this document, including the claims, the term selected trolley is hereby defined to mean a carcass trolley outfitted with a load cell and RFID module.

Both the weight and the carcass location information are sent, stored, displayed, and used to tune the operating controller/computer. The identification, address (location) of each selected trolley and the carcass weight are displayed on a display screen as the trolley enters the chill cooler and stops at the location it will reside for the chilling process. The complete chiller room layout, or floor plan, and the facility carcass spray system with all sprays and zones are displayed on the display screen for operators and managers.

As the chilling process begins, the carcasses begin to lose weight while, at the same time, carcass temperature drops. Based on the instantaneous weight measurement taken by the load cell on the selected trolleys, the program detects this weight loss and energizes an appropriate spray zone solenoid valve, hence the reason for the RFID. Most chill coolers have multiple spray zones due to size and location restraints.

The spray in the relevant zone operates until the selected carcass returns to its original weight as reported by the selected trolleys' load cells. If multiple selected trolleys and carcasses are located in this particular spray zone, the computer program uses all the data to determine the status of the spray solenoid and spray time length.

With this invention, a minimum of one selected trolley with its carcass is required to provide data for each of the water spray zones. However, any number of selected trolleys can be used to control spray zones. This also will be beneficial to meet government and individual plant requirements.

The computer program provides historical data on all the selected trolley locations, carcass weights, and spray zone operations, including number of spray cycles, frequency of spray cycles, and length of spray cycles. By storing and having access to these data, normal operating patterns will develop and any major deviations may be addressed. These historical data are also used to design duplicate or similar systems.

For the purposes of this document, including the claims, the term instantaneous weight is hereby defined to connote the most recent weight value of a carcass measured by the load cell on the selected trolley. Because the present invention is most likely to be carried out digitally, as opposed to using analog signals representing weights, weight measurements are taken at discrete times. The instantaneous weight is, then, updated on a frequent, probably periodic, basis.

For the purposes of this document, including the claims, the word carcass is hereby defined to mean the animal matter hung on a single trolley. Hence, carcass may connote a part of one animal carcass such as when a side of beef is hung on a single trolley. Carcass may also imply multiple animal carcasses if more than one animal carcass or parts of multiple carcasses are hung on a single trolley.

Other objects, advantages and novel features of the present invention will become apparent from the following detailed description of the invention when considered in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a trolley of the prior art;

FIG. 2 shows a trolley with wireless RFID and wireless load cell integrated to its design;

FIG. 3 shows a trolley of the present invention carrying a carcass;

FIG. 4 shows carcass chill room rail system, RFID readers, and water spray zones;

FIG. 5 shows a carcass under spray and a computer; and

FIG. 6 shows system control information flow.

DETAILED DESCRIPTION OF THE INVENTION

A selected trolley 200, essentially a trolley of the prior art with the addition of instrumentation according to the present invention, is shown in FIGS. 2 and 3. Each of said selected trolleys 200 is intended to carry at least a part of a carcass 310, usually with the use of a gambrel 320. The instrumentation integrated into each selected trolley 200 includes a wireless load cell 210, to provide carcass weight information, and a wireless Radio Frequency Identification (RFID) module—or, alternatively, a transponder—220, to provide identification and location information. The number of these selected trolley assemblies 200 required in a given plant is determined by the size of the facilities in which they are used. However, at least one selected trolley 200 is required at each spray zone 410 (FIG. 4) in use.

FIG. 4 illustrates a typical rail system 420 on which the selected trolleys 200 and non-selected trolleys carrying carcasses 310 operate. FIG. 4 is intended to depict a typical carcass cooler. The carcasses 310 on the trolleys enter the cooler on the rail 420 at the upper left hand corner of FIG. 4. A RFID reader 430 detects the identification and initial weight of the carcasses 310 on the selected trolleys 200. It also causes the initialization of the receivers 440 in each spray zone 410. These receivers 440 track the selected trolleys 200 and monitor their movement until the selected trolleys 200 stops in one of the four spray zones 410. Thereafter, they may receive the transmitted data from each of the selected trolleys 200 in their respective spray zones 410. Alternatively, a central wireless receiver (not shown) may collect the data from all the selected trolleys 200 in the plant. Each of the selected trolleys 200 provides its own unique signal for its location and carcass weight. The received data are acquired by a computer 510 (FIG. 5) throughout the chilling process. This information is used to energize appropriate solenoid-actuated water spray valves 450 for each of the spray zones 410. The program will start (open the spray valve 450) and stop (close the spray valve 450) the water spray 530 (see FIG. 5) in a given spray zone 410 as needed to maintain a constant carcass weight. The system will spray all the carcasses 310 in the spray zone 410, detecting the weight loss on the selected trolley or trolleys. If there are multiple selected trolleys 200 in a particular spray zone 410, the spray valve 450 will be opened only if all the selected trolleys 200 in that spray zone 410 detect a weight loss. This reduces the chance of weight gain (carcasses 310 weighing more leaving than entering). If facility requirements allow for averaging carcass weights, the spray zones 410 will be operated based on the combined average of the carcass weights on all the selected trolleys 210 in that zone. Each spray zone 410 will require a minimum of one selected trolley 200 to operate properly.

A carcass 310 hung from a selected trolley 200 under spray 530 is shown in FIG. 5. Signals from the wireless load cell 210 and the wireless RFID module 220 are depicted being transmitted to one of the receivers 440. The receiver 440, in turn, transmits the data (via wired channels 520 or wirelessly) to a computer 510 where the data are analyzed and used to control the solenoid operated water spray valve 450 that provides spray for all the carcasses in the spray zone 410. Commands to the solenoid valve may also be transmitted wirelessly or via hardwired channels 540.

A flowchart of the process of the present invention is shown in FIG. 6. After the carcasses 310 are hung on the selected trolleys 200 as well as the non-selected trolleys, the carcasses 310 on the selected trolleys 200 are weighed to determine the initial (warm) carcass weight, W_(i). These are the weights the system of the present invention will attempt to maintain, so these data are stored appropriately in the computer system 510. If the carcasses 310 have not already been transferred to the chill cooler, they will be at this time. Until the carcasses 310 have chilled to their final temperature, the weights, W, of the carcasses 310 on the selected trolleys 200 are monitored on a frequent basis (“continuously” in the digital sense). Whenever the instantaneous carcass weight, W, (or all the instantaneous carcass weights, W, in the case of multiple selected trolleys 200 in a single spray zone 410) is found to be lower than the respective initial weight, W_(i), by a predetermined amount, ΔW (where ΔW may be zero), the water spray 530 is initiated by opening the appropriate solenoid-operated valve 450. If the instantaneous carcass weight, W, is not less than the initial weight, W_(i), the appropriate solenoid-operated valve 450 is closed or kept closed.

The predetermined incremental weight value, ΔW, may be determined to avoid rapid cycling of the water spray on and off. In other words, the incremental weight value, ΔW, may be determined to build in some hysteresis in the system.

The above embodiments are the preferred embodiments, but this invention is not limited thereto. It is, therefore, apparent that many modifications and variations of the present invention are possible in light of the above teachings. It is, therefore, to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described. 

1-8. (canceled)
 9. A method of minimizing carcass weight loss during a cooling process, said method comprising: (a) operatively hanging a plurality of carcasses on a plurality of selected trolleys; (b) hanging the plurality of selected trolleys on a track; (c) obtaining an initial carcass weight for each carcass; (d) obtaining a unique identification for each selected trolley; (e) moving the plurality of carcasses and selected trolleys into at least one spray zone in a chill cooler; (f) locating each of the plurality of selected trolleys by receiving a signal representing the identification for each selected trolley by a local receiver; (g) repeatedly receiving instantaneous carcass weights for each of the plurality of carcasses with each respective selected trolley's identification; (h) spraying all carcasses in one of the at least one spray zone with water if all the instantaneous carcass weights of the carcasses on the selected trolleys are less than the respective carcass's initial weights minus a predetermined incremental weight; and (i) ceasing to spray all the carcasses with water if all the instantaneous weights of the carcasses on the selected trolleys are not less than the respective carcass's initial weights minus a predetermined incremental weight and if the carcass had been being sprayed with water.
 10. An apparatus for minimizing carcass weight loss during carcass cooling, the apparatus comprising: (a) a trolley; (b) a load cell affixed to the trolley and disposed to measure a carcass weight, said load cell able to send a wireless weight signal representing the carcass weight; (c) a receiver for said wireless weight signal; (d) a computer to receive the carcass weight from the receiver; and (e) software with logic to compare an initial carcass weight to an instantaneous carcass weight and determine if water spray should be applied to a carcass.
 11. The apparatus of claim 10 additionally comprising: (a) a wireless identification module affixed to the trolley, said wireless identification module to send a wireless identification signal; and (b) a local receiver to receive the wireless identification signal such that the wireless identification module is in a proximity of the local receiver, hence a location of the wireless identification module may be implied.
 12. The apparatus of claim 10 additionally comprising: (a) at least one water spray zone; (b) at least one water spray nozzle; and (c) at least one water valve, operatively actuatable by the computer when the software logic determines water spray should be applied to a carcass.
 13. The apparatus of claim 10 wherein the software additionally comprises logic to compare the initial carcass weight to the instantaneous carcass weight and determine if water spray should cease to be applied to a carcass. 